Machine for filling and closing cartons.



N. B. CONVERSE.

MACHINE FOR FILLING AND OLOSINGSARTONS. APPLICATION FILED NOV. 10, 1904'. RENEWED MAI}. z, 1911.

5 Patented Nov. 19, 1912.

14 SHEETS-SHEET 1.

N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING GARTONS. LIOATION FILED NOV. 10, 1904. RENEWED MAR. 2, 1911.

Patented Nov. 19,1912] 14 SHEETS-SHEET 2.

IOI

N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING OARTONS Patented Nov. 19; 1912. v

14 SHEETS-SHEET 3.

TA! F5555:

N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING OARTONS. APPLICATION FILED NOV. 10, 1904. RENEWED MAR. 2, 1911.

Patented Nov. 19, 1912.

14 SHEETS-SHEET 4.

IA/ WW mm N. B. CONVERSE. MACHINE 011 FILLING AND CLOSING GARTONS. APPLICATION FILED NOV. 10, 1904. RENEWED MAR. 2, 1911. LQQEQQ Patented Nov. 19, 1912.

14 SHEETSSHEET 5.

I l x Ii" m i H X I' 1- T' I f I III LR I h} HI I I a a i g g 3? I,

I j L I w wk a.

N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING OARTONS. APPLICATION FILED Now-1o, 1904. RENEWED MAR. 2, 1911.

1 @%4,51 Patented Nov. 19, 1912.

14 SHEETS-SHEET 6.

Ea i? I U Ll I 72 a I I 63 4 9o 11 1 s 0 J-E-EwE-EEEEEEEEEE 7 7 1 mill 7 I i; 7 A 51315 76 77 @6%& A 79. 7

N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING GARTONS. APPLICATION FILED NOV. 10, 1904. RENEWED MAR. 2, 1911.

Patented N0v. 19, 1912.

14 SHEETS-SHEET 7.

N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING CART ONS.

APPLIOATION FILED NOV. 10, 1904. RENEWED MA L.@%4,5

Patented Nov. 19, 1912.

14 SHEETS-SHEET 8.

Patented Nov. 19, 1912.

14 SHEETS-SEBBT 9. 2.5

Fur--20 1 4 12s lofil I78 I g I BU C f Hvvmvram ammo N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING CARTONS. APPLICATION FILED NOV. 10, 1904. RENEWED MAR. z, 1911.

W/ wv E55 2 0 M W Qwm W mm 1 mm 56 W N H v wm we 1m N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING GARTONS. APPLICATION FILED NOV. 10, 1904, RENEWED MAR. 2, 1911.

14 SHEETS-SHEET 11.

Patented Nov. 19, 1912.

//v VE/VTDE". 7/, 4.15m

WITNESSES f N. B. CONVERSE. MACHINE FOR FILLING AND CLOSING GARTONS. APPLICATION FILED 11017.10, 1904. RENEWED MAR. 2, 1911.

Patented Nov. 19, 1912.

14 SHEETSSHEBT l2.

m ar/4Z1 'gzjg N. B. CONVERSE.

MACHINE FOR FILLING AND CLOSING GARTO'NS.

APPLICATION FILED NOV. 10, 1904. RENEWED MAR. 2, 1911.

LQM WQ Patented Nov. 19,1912.

8"SHEET 13.

IO/I

W/ T/VEFS'ES:

hvvmvram Patented Nov. 19, 1912.

14 SHEETSSHEBT 14.

m w w I WV E5555: 727/?- j 2 7 NEWTON BOOTH CONVERSE, 0F FRESNO, CALIFORNIA,

MESNE ASSIGNMENTS, T0 HIMSELF, J. E. DICKINSON, FRANCIS M. WRIGHT, B. W. NORTON, L. Z. ICKES', AND K. ARAKELIAN, TRUSTEES.

ron.

ASSIGNOR, BY DIRECT AND MACHINE FOR FILLING AND CLOSING CARTONS.

Specification of Letters Patent.

Patented Nov. 19, 1912.

Application filed November 10, 1.904, Serial No. 232,089. Renewed March 2, 1911. Serial No. 611,937.

b all whom it may concern Be 1t known that T, NEWTON BOOTH Convnnsn, a cltizen of the United States, residing at Fresno, in the county of Fresno and 7 material usually packed in cartons, such as raisins or other fruit, and closing the cartons thus filled.

The object of the invention is to provide a machine of this character by which the above work will be done automatically after the cartons have been placed in position and the delivering funnels have been inserted thereinto, one which will pack. and close alarge number of cartons in a given time, and in which the machine shall maintain itself clean and free from the sticky residue from raisins or other fruits.

In the accompanying drawings, Figure 1 is a side elevation of the apparatus; Fig. 2 is an end view thereof, certain parts being broken away; Fig. 3 is a plan view thereof;

Fig. 4 is a plan View of the lower portion.

thereof the frame being broken away; Fig. 5 is a vertical section of the electro-magnet-ic clutch, the bearings being shown in side. elevation; Fig. 6 is a broken rear View of the clutch; Fig. 7 is a front View of the same; Fig. 8 is across section of the channel for the cartons, showing the pushers elevated; Fig. 9 is a similar view showing the push'ers in their operative position; Fig. 10 is a detail rear view of the lever for advancing the pushers; Fig. 11 is a detail rear view of the mechanism for rocking the pushers; Fig. 12 is a side view of the same; Fig. 13 is a detail side elevation partly in section of the scale beam; Fig. 14 is an enlarged hori-' zontal section of the guide for the scale pan; Fig. 15 is a vertical section of the same; Fig. 16 is a detail side elevation of the mechanism for controlling the su ply of material; Fig. 17 is a detail Vertica section of the plunger and extractor mechanism; Fig-v18 is a perspective view of a funnel; Fig. 19 is a rear detail view of the same; Fig. 20 is a horizontal section showingthe same; Fig. 21 is a detail of the stop for jus tifyingthe carton below the closing mechanism: Fig. 22 is a detail of one'of the chutes for the funnels; Fig. 23 is a detail plan yiew of the discharging mechanism; Fig. 24 1s a rear view of the same; Fig. 25 is a perispective view of the closing mechanism;

Fig. 26 is an enlarged detail view of a portion thereof; Fig. 27 is a perspective view of a portion of said closing mechanism from the other side'of the machine to that illus comprising the side castings 2 connected at Y the feed end by a cross piece 3, and at the delivery end by a cross piece 4 bolted to flanges 5 of said side castings. To said cross piece 4 is bolted a forked casting 6 carrying a bearing 7 for a stud shaft 8 which carries a-pulley 9 driven by a belt 10 from any suitable source of power. The casting also having a second bearing 11 for the end of themain driving shaft 12, the other end of said driving shaft revolving in a bearing 13 securedupon the cross piece 3st the feed end of the frame. Said main shaft is re volved from the stud shaft by the following mechanism. It carries on its end next said stud shaft a hub 14 having a cast iron disk 15, said hub being slidably connected to said main shaft but imparting rotation thereto when the disk 15 itself is rotated. The

' driving pulley is made an electro-magnet by having formed therein a circular recess 16 in which is a coil of wire 17, the ends of which are passed through the pulley and are connected to collector rings 18 on the rear side of the pulley which revolve against brushes 19, connected with the Wires 20, 21 in the electric circuit. The arrangement of the circuit will be described later, but when thecurrent is turned on said pulley becomes an electro-magnet and attracts the disk 15.

However, between said disk and pulley there is interposed a thin sheet 22 of copper riveted on to the cast iron pulley. This sheet acts'as a diamagnetic shield, or breaks the magnetic circuit between the pulley and cast iron disk when the current is turned off, thus preventing the residual magnetism left in the pulley from having any appreciable effect upon the cast-iron disk,although it is not sufficiently effective to prevent the attract-ion of the disk by the magnet when the current is turned on; thus immediately the current is cut off, the electro-magnetic pulley ceases to act on the disk.

In order to rapidly bring the shaft 12 to rest when the current is turned ofi, the disk 15, then being no longer attracted by the pulley is pressed against stationary shoes 320 secured on a brake piece 321, this pressure being applied by a spring 322 in a central recess 323 of the pulley, said spring being coiled around the stem of a plunger 324 the head of which presses against a button 325 formed on the center of the disk 15. When the current is on the attraction overcomes the pressure of this spring, but when the circuit is cut off, the spring presses the disk 15 against the brake shoes.

The stages in the operation of the machine in which the main shaft is started and stopped revolving by the energizing and deenergizing of this electro-magnet will be subsequently described, as will be also the general arrangement of the electric circuit.

The main driving shaft 12 carries a worm 23 which meshes with aworm wheel 24 on a transverse shaft 25 having its bearings in the side castings 2 of the frame, and thus imparts revolution to cam wheels 26 on said shaft which control the movements of the machine. Before describing the several operations of these cams it may be stated that the movement of the machine is intermittent in character, the length of time durmg which the machine is at rest depending upon the accuracy with which the velocity of feed of the raisins or other material is timed to correspond with the speed at which the machine disposes of the cartons after they are filled. Ifthe feed be so timed as on the one hand to keep pace with the disposit1on of the cartons and, on the other hand, not to over feed, then there will be practically no period of restof the machine.

Upon the frame is secured achannel or guldeway 28 for cartons having side walls 29 which recede at the bottom, as shown at 27 to provide a clearance for the bottom of the carton. This is an important feature, as it reduces the friction caused by advancmg the cartons in the channel. But for this clearance the bottom of the carton, being the stiffest part thereof, would be very tight wh le the top would be comparatively loose. This construct-ion also assists in maintaining the cartons upright. Into the feed end of said channel (on the right in Fig. 1) the cartons 30 are inserted successively, either by a machine for formingthe carton from the fiat blank and inserting it mto the guideway, (which, however, forms no part of the present invention), or by an operator. At each side of the guideway are operators, one or more, who insert into each carton a funnel 31, having previously wrapped around the same the waxed paper with which it is necessary to line the carton before packing the same with the fruit or other material' The cartons, with the funnels therein, are advanced in line toward the weighing mechanism by the following means Extending on one side of the channel or guideway is a tube 33, the ends of which receive, and are supportedby, shafts 34, 35, extending horizontally and longitudinally from standards 36 mounted upon the table of the machine. This tube can therefore slide longitudinally upon these shafts and can also rock thereon. Both of these mo tions are necessary for advancing the cartons. The tube has a longitudinal feather 37 which passes through feather ways 38 in hubs 39 of hooked shaped pushers 40, the pushers being thus; maintained always in alinement with each other and being spaced at theproper'uniform distance from each other and secured at such distance by set screws 41. Thus the pushers move longitudinally and rock with the tube, and their movement is as follows :From the rear position in which a pusher rests behind a carton it is moved forward a suflicient distance to move said carton with it into the place of the carton receding it. It is then moved slightly bactward so as to permit one of them to clear a certain latching stop, as will be hereinafter explained. It 18 then rocked upward so as to be clear of the carton. It is then returned to a posit-ion between the succeeding two cartons, and is then rocked downward so as to drop behind the next cart-on succeeding that which has been ust pushed forward by said pusher. Thus in each complete circle of its movements it advances the carton through the space between successive car'- tons in line with the same.

To obtain the longitudinal movement of the pushers, there are provided upon the tube 33 collars 43, between which is a pin secured to the end of a lever 46 loosely pivoted upon transverse shaft 47, the other arm of said lever carrying a roller 48 which runs in a cam groove 49 in the wheel 26 upon the transverse shaft 25. By suitably shaping said cam groove the required longitudinal movement is given to said pushers to advance the cartons the proper distance. The rocking motion of said pushers is produced as follows :-The end of the tube 33 next the delivery end of the machine has an internal feather 49 which slides in a groove 30 in the shaft 35, so that when said latter shaft is rocked also is the tube 33 and the pushers secured thereon. Said shaft 35 is oaasoo rocked by means of a gear wheel 52 thereon which is engaged by a vertically sliding rack 53, the lower end of which has a slotted engagement with the end of a lever 54 pivoted at 55, the other arm 56 of said lever being connected bya link 57 with a lever 58 loosely pivoted upon the shaft 47, the end of said lever carrying a roller 59 which rides in a cam groove 60 on the other side of the wheel 26 to that in which the cam groove 49 was formed. By giving the proper shape to said groove 60 the shaft 35, and so also the pushers, are rocked at suitable times to, first,

withdraw them from the path of the car-.

tons, and then, after they have been moved back, to drop them down again behind the cartons ready for .another advance. -The table is recessed as shown at 42, to permit the pushers to extend below the bottoms of the cartons, so that they can apply the propulsive force at their stifl'est parts, the bottoms. At a suitable point the channel is open at the bottom which permits stray raisins or other material to drop through which would otherwise clog up the channel. The channel has then a longitudinal bridge formed by a narrow. blade 51, secured by the casting 155. This bladethen supports the cartons between the walls ofthe channel. The cartons thus advanced along the guide way are brought in succession on to the scale platform 62 which rides upon the end of the scale beam 63, the latter being pivoted beneath the table, as shown at 64, and suitably weighted at the rear end, as shown at 65, according to the weight of the material it is desired to pack in each carton, and also being provided with an adjusting weight 66 screwed upon an extension 67 of the scale beam for accurately adjusting the weight. The end of the scale beam is forked, as shown at 70, and provided with bearings 71 for the side plates 72 of the scale platform.

From the center of said platform extends downwardly a stem 73 which slides vertically in a bearing 74 in a bracket 75 secured upon the under side of the table, said stem having recesses 76 in which. are balls 77 to reduce friction in the vertical movement of the scale platform, while closely confining the same to its vertical path; The upward movement of the platform is limited by a screw 80 screwed into a boss 81 in the beam, which screw abuts against the surface of the bracket 7 5 when the scale platform'has reached its uppermost position.

/Vhen the carton on the platform is filled and is in its lowestposition, the top of the scale platform is on a level with the guideway or table, but when the carton is pushed off and an empty carton takes its place, the scale platform immediately rises under the action of the weight at the other end of the scale beam. The empty carton upon the scale platform isunderneath the delivery spout 82, which spout is controlled by gates 83 hinged at their upper ends, their lower ends closing together when the gates are shut and preventing the delivery of any of the fruit. Said gates are rigidly attached torock shafts 84 which extend through the sides of the spout and carry, outside, the spout, cranks 85 attached by links 86' to a pin 87 secured on the end of a solenoid core 88 surrounded by a coil of wire 89, which, at a proper time in the operation of the machine, is included in the same circuit as that which energized the electro-magnet of the driving pulley.

lhe circuit through the solenoid wire passes through a contact 90 secured upon the weighted arm of the scale beam and a contact 91 supported upon the under side of the table, so that when the scale platform is depressed, said contacts are closed and the solenoid is energized, thus closing the gates and preventing any more raisins dropping into the carton. scale platform rises, owing to the substitution of an empty carton for a full one, said contacts 90, 91, are separated, the solenoid is denergized and the gates open, said opening being accelerated by theaction of a spring 94:- This immediately allows the raisins or otherma-terial to dropfrom between the gates through the funnel into the carton, and they will continue to so drop until the carton has received such a Weight thereof that the scale platform again'descends,.again closing the contacts, again energizing the solenoid and closing the gates, when the carton will be filled and will be ready for advancin to permit another to take its place. In order to prevent raisins or other fruit sticking to the gates and thus accumulating in the spout, the gates have facings o'f absorbent material which ab.- sorbs the moisture from the fruit and thus remains moist, and prevent the fruit sticking thereto. In addition, moisture may be provided from any extraneous source if desired. The carton, now having been filled to the proper weight, is passed, with its funnel, 'ofi from the weighing platform and on to the table in the'line of the guideway,

But as soon as the and the next operation is that of'p'acking the fruit in the carton and removing the funnel therefrom, The carton does not, however, immediately pass from the scale platform to the point where this packing takes place, but to an intermediate station,

and on a second advance passes from said point where it is frame 101 supported on and secured to the table. The plunger is drawn down to press 'theraisins in the carton by means of a conconnects these sides with each other.

necting rod 102 adjustably attached by means of a screw 103 to the carrier. The lower end of the connecting rod is attached to a lever 104 pivoted at 105 on a cross shaft 106 on the frame, and having a counter balance weight 107, and to said lever is attached a link 108 connected at its lower end, as shown at 109, to a lever 110 upon the shat 47. Said lever carries, at about the middle thereof, a roller 111, which rolls in a cam groove 112 in a wheel 113 on the transverse shaft 25. Thus at the proper time in the revolution of said shaft 25, said plunger is depressed to press the fruit in the carton, and is subsequently raised therefrom. After the raisins have been pressed in the carton, the next operation is that of removing the funnel, the plunger remaining in the carton while the funnel is being removed. This funnel comprises two sides 115, which extend up to the top of the funnel, and which flare outwardly at their upper ends, and the two other sides 116 which extend only to the bottom of the flaring portions 117 of the sides 115. A rod 118, bent into a rectangular form, is secured to the upper edges of the sides 115 and also Sheets 119 of spring metal are secured at their lower edges to the tops of the sides 116 and these spring metal sheets tend normally to spring outward so as to close the openings between the upper edges of the sides 116 and the two sides of the rod 118 which are not attached to the sides 115, and it is in this form when they are inserted by the operators into the cartons.

120 represents the body of the funnel extractor sliding on the vertical guides 100 and carrying downwardly depending hooks 122. These hooks have screws 123 limiting their inward movement, which is caused by a spring 124 connecting the two hooks. This extractor 120 is, at a proper time in the operation of the machine, drawn down by a connecting rod 125 connected to a curved lever 126 pivoted on a cross shaft 127 in the frame of the machine and having a counter balance weight 128, said lever having an arm 129 with a roller 130 rolling in a cam groove 131 in the same wheel 113 as that used for the plunger roller 111. This cam causes the extractor to descend, so that the hooks thereof pass over the edges of the funnel, and then immediately spring in underneath said edges. At the same time the spring plates 119 of the funnel are pressed inward so as to straighten the same and cause the fruit to pack closely.

For the purpose of pressing the spring plates together there are provided clamping levers 133, 134, which are pivoted at 135,

136, and have fingers 137, 138, extending inwardly from opposite sides against the spring plates of the funnel, and said levers wheel 146 on the shaft 47. The roller is held against the cam by means of a tension spring 147 connected to the extension 143 and t0 the frame of the machine.

The cams 112, 131, are so constructed that the rollers 111, 130, are left therein in close proximity to their respective declines and inclines in said grooves, so that, when the scale platform descends, and the circuit is closed by the ascent of the other end of the scale beam, the rollers immediately thereupon move in their grooves so as to simultaneously start the plunger and extractor in their descent and the clamps to close in upon the spring plates of the funnel. The

extractor continues to descend, the hooks .vided, as herein shown, absorbent material 150 within the plunger, which is hollow, said absorbent material being connected with the pad by pieces of string or other capillary substance passing through apertures in the bottom of the plunger. One side of "the plunger, near the top, is open, as shown at 151, to enable water to be added at suitable intervals. After the plunger and extractor descend, the plunger remains in the carton to hold the carton and fruit down while the funnel is'being elevated. After the funnel is clear of,the carton, then the plunger rises, commencing its, ascent before the extractor has stopped rising, the plunger continuing its ascent until it is clear of the funnel, which is then pushed to one-side. The funnel is discharged to one side o-r'theother of the machine by means of a shiftr lever 153,

' nels are so moved by means of an arm 161,

extending from the upper end of said lever V 158 which engages the funnel, and slides it on the suppo-rting'hooks 122 until the funnel is moved off said hooks and on to a chute or track 161 having underhanging inwardly extending flanges 165 which engage the rim of the funnel and thus support it. Each funnel, when so moved on to one or the other of said tracks 164, pushes forward all of the funnels already on the tracks and these funf nels remain on said tracks until they are taken from the same by the operators to use them over again.

It will be observed that the funnels are kept free from sticky residue-of the fruit b the fact that. their outer sides are constantly wiped'against the oiled paper when they are withdrawn from the cartons, and their inner sides are wiped by the plunger and the pad thereon. The sides of the funnel are thus also maintained slightly damp by said pad.

After the carton has left the location in which the raisins or other material are pressed down into place, then, having been pushed forward one stage by the pushers, in the manner already described, it remains at rest during the next cycle of'operation of the machine, and is then pushed another stage forward to the position where the top ofthe carton is closed by passing the tongues into the slits thereof. It is not, however, at first pushed into the exact position for this operation but slightly past the same, and is then jiistified in the exact position by special mechanism for this purpose. This mechanism comprises a latching stop 179 which is pivoted at one side of the path of the carton on a vertical pivot 171 and is moved inward into the path of the carton by. a spring 172. The carton in its forward movement presses the latching stop outward, which immediately thereafter springs inward, when the carton has passed the same. The pusher opposite this latching stop is n'ade of extra thickness, as seen in Fig. 3, and it is to clear this latching stop by this pusher that the pushers are given a slight backward motion after their forward move ment. To move the carton back against said stop'so that it will bein the exact position for closing the top, the same mechanism is utilized which discharges the cartons already closed. This mechanism comprises a laterally sliding discharger=174 having a rack 175 operated by a segment gear 176 upon the longitudinal shaft 35. This segment gear 176 is so arranged on'said shaft that when the pushers 10 are descending behind the'cartons the rack 175 is moved backward or away from the path of the cartons. There is then a period of rest for this rack 175 while the pushers 40 are moving for,- ward and transferring the cartons from one station to the next. This operation brings a carton into the path of the discharger- 174 and then, on the return movement of the discharger due to the motion of the segment uponthe shaft 35, said carton is discharged to one side, out of the path of the remaining cartons. This latter movement is also utilized to justify the carton'which is being brought to the position for closing the top, by making the slideways 178 for the discharger oblique and sloping rearwardly inward or toward the guideway for the cartons, The discharger, being thus given a rearward movement, as well as alateral movement, transmits this movement to the carton succeeding that which is being discharged, and this again transmits the movement to the carton which is underneath the mechanism for closing the top, bringing the latter carton up against the spring actuated stop 179, and placing it in the exact position for the operation of the closing mechanism. This closing mechanism is as follows :Upon one side of the guideway is secured a frame 180 in which is-a horizontal transverse shaft 181 carrying a cam disk 182 having thereon various cams for operating the different members of the closing mechanism. This cam disk is rotated by means of a sprocket wheel 183 on the shaft of the camwheel driven by a sprocket chain 184 from a sprocket wheel 185 on the shaft 47. The first part of the operation of closing the top is to turn inward the two small plain flaps 187 of the top of the carton. These small flaps are moved inward by means of two turner plates 188, 189, on the ends of bars 190 depending from horizontal shafts 191, having bearings in an upper extension 192 of the frame 180, said shafts being connected by segment gears 193, 194:, so as to swing together in unison, one of said shafts having a crank 195 thereon carrying a roller 196 which moves in a grooved cam 197 on the face of the cam disk 182. The cam is arranged to move said plates toward each other at the proper moment to close the flaps. It will be observed that one of said. plates 188 is much larger than the other 189 and is curved backward or outward; the object of this is to enable the plate to pass into proper position to engage the flap 187 on that side, notwithstanding the shaft 203 204 in the frame 180, said depressor being moved outward by means of a crown cam 205 upon the cam disk 182, operating against a roller 206 upon the end of said slide bar, and being moved inward by means of a compressed coil spring 207. When the crown cam recedes so as to allow the spring 207 to operate said spring moves said depressor inward, thereby causing it to turn over the slit flap 200. This depressor is provided with two side fingers 209, the ends of which are slightly raised so as to impinge upon the flap a suflicient distance above the bending line to cause the flap to bend over on said line. Then a broad central shaper 210 impinges upon the flap and pressesthe flap into a horizontal position. The width of this shaper 210 is slightly less than the dis tflance between the two slits 201 in this slitted It is now necessary to push down the opposite flap 211, which has the ears or tongues 212 to enter said slits 201. This is accomv plished by means of a slide bar 213 sliding in-a bearing 214 in the frame 180, and having a roller 215 operated by a crown cam 216 on thecam disk 182, which cam moves said slide bar outward, said slide bar being moved inward by means of a coiled spring 217 attached to an arm 218 of a lever 219, pivoted, as shown at 220, to said slide bar 213. The spring 217, being attached to the depending arm, draws the front arm 222 of the lever downward. Upon the side of said arm 222 is pivotally attached a catch 223 having a shoulder 224. When the lever has been withdrawn to'its rearward position, this shoulder 224 isin engagement with a shoulder 225 on a station: ary casting 226 secured to the frame, and the first result of moving the lever forward or outward is therefore to tilt upward the front end of the arm 222, because the shoulder 224 cannot descend, and therefore the pivotal point of attachment of the catch 223 to the arm 222 must ascend as the lever is forced forward, and this likewise raises the front end of the arm 222. A stop 228 above said catch 223 limits its upward movement. Now as the slide bar 213 moves outward, carrying with it the lever 219, and the forward end of the arm 222 moves upward as described, said front end, which is made broad so as to cover a considerable extent of surface of the flap, moves over said flap and presses it down on to the shaper 210. At the same time the lower depending arm 218 strikes the rear side of a bender 230 pivoted to the table, and moves said bender forward. This bender is forked at its upper. end 231, as shown in Fig. 27, leaving anintermediate recess 232, so that the forks pass on each side of the main body of the lever 222. These forks 231 are now pressed down upon the sides of the flap 211, so that said flap is bent downward on each side to conform to the form of the shaper so that the ears 212 of the flap lie over the slits 201 and slightly back of them. a

The neXt operation is that of pushing the ears into the slits, and for this purpose there is provided a two pronged fork 235 secured upon an arm 236 of a lever 237 pivoted at 238 upon a rearward extension 239 of the frame, said lever carrying at its lower end a roller 240 operated by a crown cam 241 upon the cam disk 182. A spring 242 is secured to said arm and brings the forks downward, while the cam operates against said spring to move the forks upward. At the proper time the cam allows the spring to act so that the fork descends, and the prongs thereof press upon the upper surface of the ears and press them down and also press down the portions of the flaps within the slits, these slits being cut in three sides of a rectangle. The shaper now withdraws slightly to allow the points of the ears to enter the slits, and then the fork 235 rises to remove the pressure from the ears. At the same time the depending arm 218 of the lever 219 moves rearwardly and the. lever 219 presses downv the'fiap 211 causing the ears to move outwardly into the slits, because, the center of the flap moves down. While this is taking place the shaper continues to move out of the way so that the flap 211 can be pressed down fiat andrthe ears are inserted entirely into the slits. When the depending arm 218 of the lever was withdrawn, the forked bender 230 was also withdrawn from the flap, this being effected by means of a spring attached to said bender and to the frame. The lever 219 is now withdrawn, so that all the parts are in position for operatic-n upon the nextcarton. They remain at rest for about one-third of a revolution of the cam disk or of a cycle of the machine to allow the next carton to be pushed into position and iustified therein to be operated upon.

Before describing the electrical circuits which control the action of various parts of the .apparatus, it may be stated that the packing apparatus hereto-fore described is intended for use in conjunction with a line of machinery for processing and seeding raisins. This line of machinery is illustrated in outline in Fig. 31, in which 250 represents a sweating machine for softening the raisins before feeding them to the raisin seeding machine, shown at 27 0.- The raisins are fed into a hopper 252, and are conveyed by suitable apparatus to the other end of the sweating machine 250 in a substantially closed chamber 254, being heated therein by means of steam coils 255 and moistened by live steam introduced thereinto by a pipe 256. I, 3

257 is the shaft for operating the convey- 

